苦参碱对奶牛乳腺上皮细胞增殖、凋亡及抗氧化能力的影响

【目的】探究苦参碱对体外培养的奶牛乳腺上皮细胞(BMECs)增殖、凋亡及抗氧化能力的影响。【方法】利用含0(A组),25(B组),50(C组),75(D组)和100μg/mL(E组)苦参碱的培养基培养奶牛乳腺上皮细胞。通过四甲基偶氮唑盐(MTT)法检测BMECs活性,采用流式细胞仪(AnnexinV/PI双染法)检测苦参碱对BMECs凋亡的影响,并检测苦参碱对BMECs抗氧化酶活性及丙二醛(MDA)含量的影响,采用real-time PCR对BMECs中Caspase-3、p53、STAT1和SOCS3基因的相对表达量进行检测。【结果】用药5d时,低质量浓度(25和50μg/mL)苦参碱对BMECs增殖具有促进作用,高质量浓度(75和100μg/mL)苦参碱对细胞增殖具有抑制作用;B~E组BMECs的凋亡率均极显著高于A组(P0.01);B~E组BMECs培养上清液中NO和乳酸脱氢酶(LDH)水平明显高于A组。B~E组BMECs的过氧化氢酶(CAT)活性均比A组高,其中C组极显著高于A组(P0.01);B~E组的谷胱甘肽过氧化物酶(GSH-Px)活性均极显著高于A组(P0.01),E组的超氧化物歧化酶(SOD)水平极显著高于A组(P0.01),各组MDA含量无显著性差异。与A组相比,苦参碱上调了B~E组BMECs中Caspase-3、p53、STAT1和SOCS3基因的相对表达量。【结论】低质量浓度苦参碱能够促进BMECs增殖,高质量浓度苦参碱则会抑制BMECs增殖;不同质量浓度苦参碱均可提高BMECs的抗氧化能力,其中50μg/mL苦参碱提高BMECs抗氧化能力的效果最明显。     

高校培养现代化牧场所需复合创新人才的探讨——以畜牧类专业为例

随着经济的发展和人民生活水平的提高,畜牧业在国民经济中的地位越来越重要,各类大型牧场为满足社会的需求和自身的发展,不断更新生产模式和管理方式,已逐步实现与国际技术的接轨,达到现代化水平。然而,很多牧场却因缺乏复合型创新人才而犯愁。论文从现代化大型牧场的特点及人才需求出发,结合教学改革中的成功经验,提出了高校培养现代化大型牧场所需复合型创新人才的具体措施和方法,为畜牧高校人才培养提供借鉴。     

Model construction of rat coronary artery smooth muscle cell endoplasmic reticulum stress induced by thapsigargin

AIM: To investigate the primary culture method for coronary artery smooth muscle cells (CASMCs), and to establish the endoplasmic reticulum stress (ERS) model in CASMCs of SD rats. METHODS: CASMCs were cultured by tissue explant method. The morphological characteristics were observed under optical microscope. The marker proteins of CASMCs, including α-SMA and SM-MHC, were identified by immunofluorescence technique. The protein expression levels of BiP and CHOP, the marker molecules of ERS, were determined by Western blot. RESULTS: The spindle-shaped CASMCs climbed out from the edge of coronary artery tissues after 6 d, and formed the typical "hill and valley" growth pattern of CASMCs at 9~10 d. The result of immunofluorescence technique showed that α-SMA and SM-MHC were positively expressed. The results of Western blot showed that the protein expression of BiP and CHOP in TG (1 and 2 μmol/L) treatment groups was increased compared with control group. Compared with control group, the protein expression of BiP and CHOP was significantly increased after 1 μmol/L TG treatment for 24 and 48 h. CONCLUSION: CASMCs can be successfully cultured by tissue explant method. ERS model of CASMCs was established by 1 μmol/L TG treatment for 24 h.     

优质高产棉花新品种鲁棉1157的选育及栽培技术

介绍了鲁棉1157 的选育过程、农艺特征特性、产量、品质、抗性及栽培技术要点。     

河西荒漠灌区紫花苜蓿施肥效应及其基于数据包络分析法的经济效益研究

为科学准确地评判河西走廊苜蓿主产区紫花苜蓿饲草生产中施肥措施对其产品质量及生产收益的影响,本研究以“甘农3号”紫花苜蓿为材料,通过2016、2017年2年田间试验,以该区域紫花苜蓿饲草生产的平衡施肥推荐方案(N 103.5 kg·hm^-2、P₂O₅ 105 kg·hm^-2、K₂O 90 kg·hm^-2)为对照,探讨了不施肥及3种不完全施肥(缺氮偏施、缺磷偏施、缺钾偏施)处理下紫花苜蓿的生产性能,并采用数据包络分析法(DEA)对其经济效益进行分析。结果表明:与不施肥相比,施肥措施各处理均显著提高紫花苜蓿产量、蛋白总量,降低其酸性洗涤纤维和中性洗涤纤维,提高了相对饲用价值,从而改善了紫花苜蓿品质,并有效增加了经济效益;与氮、磷、钾平衡施肥相比,各偏肥处理的紫花苜蓿产量和品质均显著低于平衡施肥,尤以缺磷偏施的降幅最大,2016、2017年2年的产量和蛋白总量降幅分别达到25.9%、25.7%和33.4%、33.1%。因此,磷是河西荒漠灌区紫花苜蓿饲草生产的养分限制因子,氮、磷、钾对该地区紫花苜蓿生产性能影响顺序为:磷>氮>钾。运用数据包络分析法(DEA)分析出河西荒漠灌区紫花苜蓿的施肥效应为氮、磷、钾平衡施肥的经济效益最优,为DEA有效;不完全施肥的3个评价单元及不施肥评价单元为DEA无效,其中,不施肥经济效益最低,3个不完全施肥评价单元中的缺磷偏肥的紫花苜蓿经济效益比缺氮偏肥和缺钾偏肥更低;另外还以DEA模型推算出不同施肥措施下紫花苜蓿饲草生产经济效益改进的具体方案,其中,不施肥的紫花苜蓿饲草生产需调整的幅度最大,调整额度达10678.88 CNY·hm^-2,各施肥措施需调整的幅度排序为:不施肥>缺磷偏施>缺氮偏施>缺钾偏施。     

国内外奶牛疫病预警监测技术发展现状

为了解国内外奶牛疫病预警技术及其应用现状，归纳了奶牛疾病的预警要求，分析了国内外8种疫病预警技术的发展现状及其在奶牛养殖中存在的局限性。一是兽医巡检预警技术：该技术较为成熟，但不能满足大规模养殖牛场迅速、高效预警的需求。二是奶样体细胞数测定技术：可初步诊断隐性乳腺炎，但需要额外细菌培养和检测确诊。三是奶牛群体改良测定技术：以监测生产性能为主，仅可预警奶牛乳腺炎及酮病。四是计步器及发情、反刍项圈预警技术：同时具备发情与反刍监测功能，但仅适用于牛群的发情与反刍监测。五是大数据挖掘技术：在数据库基础上，利用各种模型或算法预测传染病的发生和发展，但预警效率受限。六是智能化体温连续远程监测及预警技术：可预警口蹄疫等重大传染病，但无法完全替代临床诊断，不能监测病原微生物。七是基于AI和群体热成像的奶牛行为分析技术：可以监视记录奶牛行为与温度特征，锁定病畜，但对发病初期无异常行为的牛只无效。八是生物气溶胶激光光谱测量技术：通过检测病原微生物种类和浓度，达到预警疫病的目的，目前主要用于军方监测人类重大疫病。未来的奶牛疫病预警技术需要进一步相互结合、取长补短，充分利用大数据、物联网等新兴技术进行奶牛重大疫病预警诊断。本文为预警监测技术的本地化发展提供了参考。     

中国部分重点地区牛结核病的γ-干扰素试验流行病学调查

为调查部分省份牛结核病(bTB)的流行情况,我们在山东等14个省份34个历史上疫情较重的县共129个场户采集牛全血2 201份,采用CO2培养箱或蜡罐方法进行bTBγ-干扰素检测,结果显示样品的个体阳性率为6.4%,群阳性率为42.6%。饲养模式对bTB感染影响的统计显示较大规模场的个体阳性率(6.9%)和群阳性率(60%)均高于散养户(分别为5.7%和35.6%)。而牦牛样品的检测结果均为阴性。5个牛群的禽型PPD阳性统计结果显示牛型PPD阳性率越高,则禽型PPD阳性牛在牛型PPD阳性牛中的所占比率越低。在所有阳性牛群中,阳性率≥10%的牛群所占比例高达81.8%(45/55),bTB感染呈现出一个"群发性"的特征。     

Microbial remediation of a pentachloronitrobenzene-contaminated soil under Panax notoginseng: A field experiment

Pentachloronitrobenzene (PCNB) is an organochlorine fungicide that is mainly used in the prevention and control of diseases in crop seedlings. Microbial removal is used as a promising method for in-situ removal of many organic pesticides and pesticide residues. A short-term field experiment (1 year) was conducted to explore the potential role of a PCNB-degrading bacterial isolate, Cupriavidus sp. YNS-85, in the remediation of a PCNB-contaminated soil on which Panax notoginseng was grown. The following three treatments were used:i) control soil amended with wheat bran but without YNS-85, ii) soil with 0.15 kg m^-2 of solid bacterial inoculum (A), and iii) soil with 0.30 kg m^-2 of solid bacterial inoculum (B). The removal of soil PCNB during the microbial remediation was monitored using gas chromatography. Soil catalase and fluorescein diacetate (FDA) esterase activities were determined using spectrophotometry. In addition, cultivable bacteria, fungi, and actinomycetes were counted by plating serial dilutions, and the microbial biodiversity of the soil was analyzed using BIOLOG. After 1 year of in-situ remediation, the soil PCNB concentrations decreased significantly by 50.3% and 74.2% in treatments A and B, respectively, when compared with the uninoculated control. The soil catalase activity decreased in the presence of the bacterial isolate, the FDA esterase activity decreased in treatment A, but increased in treatment B. No significant changes in plant biomass, diversity of the soil microbial community, or physicochemical properties of the soil were observed between the control and inoculated groups (P<0.05). The results indicate that Cupriavidus sp. YNS-85 is a potential candidate for the remediation of PCNB-contaminated soils under P. notoginseng.